姓名:董传明
职称:教授
个人简介:江苏南通人,医学博士。
专业研究领域:基础医学、中枢神经损伤修复与再生
专著与论集:
(1), *. the combined application of stem cells and three-dimensional bioprinting scaffolds for the repair of spinal cord injury. neural regeneration research, 2024, 19(8):1751-1758.
(2)#, #, , , , , *. the acute spinal cord injury microenvironment and its impact on the homing of mesenchymal stem cells. exp neurol, 2024, 373:114682.
(3)#, #, #, , , , , , , , *, *, *. transcriptome profile analysis in spinal cord injury rats with transplantation of menstrual blood-derived stem cells. front mol neurosci, 2024, 17:1335404.
(4) #, #, , , , , *. exosomes combined with biomaterials in the treatment of spinal cord injury[j]. front bioeng biotechnol, 2023, 11:1077825.
(5)#, #, , , , , *. decellularized extracellular matrix in the treatment of spinal cord injury. exp neurol, 2023, 368:114506.
(6) wenhua he#, xuanxuan zhang#, xiangzhe li#, dingyue ju, tiantian mao, yan lu, yu gu, longju qi, qinghua wang*, qinfeng wu*, chuanming dong*. a decellularized spinal cord extracellular matrix-gel/gelma hydrogel three-dimensional composite scaffold promotes recovery from spinal cord injury via synergism with human menstrual blood-derived stem cells [j]. journal of materials chemistry b, 2022;10(30):5753-5764.
(7) wenhua he#, hui wang#, xuanxuan zhang#,tiantian mao, yan lu, yu gu, dingyue ju, longju qi, qinghua wang*, chuanming dong*. construction of a decellularized spinal cord matrix/gelma composite scaffold and its effects on neuronal differentiation of neural stem cells[j]. journal of biomaterials science: polymer edition, 2022; 33(16):2124-2144.
(8) wenhua he#, dingyue ju#, yu gu, yan lu, meijuan ge, qinfeng wu*, chuanming dong*. human menstrual blood-derived stem cells combined with a new 3d bioprinted composite scaffold for spinal cord injury treatment[j]. , 2022, 159(110755).
(9) chuanming dong#, xianli wang#, lixin sun#, liang zhu, danjing yang, shane gao, wenjun zhang, bin ling*, aibin liang*, zhengliang gao*, jun xu*. atm modulates subventricular zone neural stem cell maintenance and senescence through notch signaling pathway[j]. stem cell research, 2022, 58:102618.
(10)#, #, , , , , *. cancer treatment evolution from traditional methods to stem cells and gene therapy[j]. current gene therapy, 2022, 22(5):368-385.
(11) jiahuan wu#, xiangzhe li#, qinghua wang, sheng wang, wenhua he, qinfeng wu*, chuanming dong*.lncrna/mirna/mrna cerna network analysis in spinal cord injury rat with physical exercise therapy[j]. peer j, 2022;10; e13783.
(12) jie ren#, xianli wang#, chuanming dong#, guangming wang#, wenjun zhang, chunhui cai, minxian qian, , danjing yang, bin ling, ke ning, zhiyong mao, baohua liu, tinghua wang, liuliu xiong, wenyuan wang*, aibin liang*, zhengliang gao*, jun xu*. sirt1 protects subventricular zone-derived neural stem cells from dna double-strand breaks and contributes to olfactory function maintenance in aging mice[j]. stem cells, 2022; 40(5): 493-507.
(13)xiangzhe li#; qinghua wang#; jie ding#; sheng wang; chuanming dong*;qinfeng wu*; exercise training modulates glutamic acid decarboxylase-65/67 expression through trkb signaling to ameliorate neuropathic pain in rats with spinal cord injury[j]. molecular pain, 2020, 16(1744806920924511).
(14)song chen#, chuanming dong#, jinyun zhang, baohua tang, zhengrong xi, fei cai, yachi gong, jianru xu, longju qi, qinghua wang*, jian chen*. human menstrual blood-derived stem cells protect h9c2 cells against hydrogen peroxide- associated apoptosis[j]. in vitro cellular & developmental biology – animal, 2019,55(2):104-112.
(15) qinfeng wu#; qinghua wang#; zhangjie li#; xiangzhe li; jing zang; zhangwei wang; chen xu; yujia gong; jiaqi cheng; haoming li; guangyu shen; chuanming dong*; human menstrual blood-derived stem cells promote functional recovery in a rat spinal cord hemisection model, cell death & disease, 2018, 9(882).
(16)xianli wang#; chuanming dong#; lixin sun#; liang zhu; chenxi sun; rongjie ma; ke ning; bing lu*; jinfu zhang*; jun xu*; quantitative proteomic analysis of age-related subventricular zone proteins associated with neurodegenerative disease[j]. scientific reports, 2016, 6(37443).
(17)liang zhu#, chuanming dong#, chenxi sun, rongjie ma, danjing yang, hongwen zhu*, jun xu*. rejuvenation of mptp induced human neural precursor cell senescence by activating autophagy[j]. biochem biophys res commun, 2015, 464, 526-533.
(18) c-m dong#; x-l wang#; g-m wang#; w-j zhang; l zhu; s gao; d-j yang; y qin; q-j liang; y-l chen; h-t deng; k ning; a-b liang*; z-l gao*; j xu*; a stress-induced cellular aging model with postnatal neural stem cells[j]. cell death & disease, 2014, 5(e1116).
(19)chuanming dong; heyan zhao; weiwei chen; lei wang; lei zhang; xinhua zhang; jinhong shi; haoming li; guohua jin*; the dynamic expression of mash1 in the hippocampal subgranular zone after fimbria-fornix transection[j]. neuroscience letters, 2012, 520(1): 26-31.
主要科研项目
主持国家自然科学基金青年基金、国家自然科学基金面上项目、江苏省高校自然科学基金各一项,南通市科技计划项目两项,作为第一指导老师主持国家级大学生实践创新项目1项,江苏省研究生科研与实践创新计划和江苏省大学生实践创新项目各两项。作为主要参与者参与国家自然科学基金面上项目4项。
讲授课程
系统解剖学、局部解剖学、神经生物学
指导研究生情况
已毕业硕士生1名;在读硕士生4名。
